Dibutyryl cyclic AMP resistant MDCK cells in serum free medium have reduced cyclic AMP dependent protein kinase activity and a diminished effect of PGE1 on differentiated function

Prostaglandin E1 (PGE1) has a stimulatory effect both on the growth and the expression of differentiated function of Madin Darby Canine Kidney (MDCK) cells in a hormonally defined medium (Medium K-1). While the stimulatory effect of PGE1 on MDCK cell growth is observed in subconfluent cultures, the effect of PGE1 on differentiated function (i.e., dome formation) is observed at confluency. PGE1 may possibly affect growth and such differentiated functions by separate mechanisms. In order to examine this possibility, dibutyryl cyclic AMP resistant variants of MDCK were selected. All of the variants were partially resistant to the growth inhibitory effects of dibutyryl cyclic AMP and theophylline. The cyclic AMP dependent protein kinase activity of four of the five variant clones studied was significantly reduced as compared with normal MDCK cells. The dependence of the kinase activity of several of the dibutyryl cyclic AMP resistant variants (DBr2 and DBr3) on the cyclic AMP concentration in the reaction mixture was compared with that of normal MDCK cells. At all of the cyclic AMP concentrations tested DBr2 and DBr3 cells had reduced protein kinase activity as compared with normal MDCK cells. This reduced activity could be attributed to a decrease in the Vmax for kinase in the two variants, rather than to a change in the Km of kinase for cyclic AMP. The cyclic AMP phosphodiesterase activity of dibutyryl cyclic AMP resistant variants was also studied. Unlike PGE1 independent clone 1, DBr2 and DBr3 cells did not differ significantly from normal MDCK cells with regard to their ability to degrade cyclic AMP. The growth and functional responsiveness of DBr2 and DBr3 cells to PGE1 was also examined. DBr2 and DBr3 cells were shown to retain a normal growth response to PGE1. However the capacity of DBr2 and DBr3 cells to form domes in response to PGE1 was dramatically reduced as compared with normal MDCK cells. Nevertheless DBr3 cells were shown to still retain the capacity to form domes in response to other inducers. The effect of PGE1 on one of the functional parameters involved in dome formation (the activity of the Na+/K+ATPase) was examined. The rate of ouabain-sensitive Rb+ uptake was observed to be elevated in confluent monolayers of normal MDCK cells maintained in Medium K-1, as compared with monolayers maintained in Medium K-1 minus PGE1.(ABSTRACT TRUNCATED AT 400 WORDS)     

PGE1-independent MDCK cells have elevated intracellular cyclic AMP but retain the growth stimulatory effects of glucagon and epidermal growth factor in serum-free medium

Prostaglandin E1 (PGE1), a component in the hormone-supplemented, serum-free medium for the Madin Darby canine kidney (MDCK) cell line, has been proposed to increase MDCK cell growth by increasing intracellular cyclic AMP levels. The association between increased intracellular cyclic AMP and the growth stimulatory effect of PGE1 has been examined in normal MDCK cells and in PGE1-independent variants of MDCK. These variant cells have lost the PGE1 requirement for long term growth in defined medium. Normal MDCK cells had almost twofold higher intracellular cyclic AMP levels during growth in Medium K-1 (9.0 pmol/mg protein) than in Medium K-1 minus PGE1. Furthermore, PGE1-independent clone 1 had higher intracellular cyclic AMP levels in Medium K-1 minus PGE1 than normal MDCK cells in Medium K-1. This latter observation suggests that the PGE1 requirement for MDCK cell growth is associated with the low intracellular cyclic AMP levels of this cell line. An involvement of cyclic AMP in the growth response to PGE1 is supported by these observations, as well as by the growth stimulatory effects of other agents that affect cyclic AMP metabolism in MDCK cells. These agents include glucagon, isobutyl methylxanthine (IBMX), and dibutyryl cyclic AMP. The growth of PGE1-independent clone 1 was inhibited rather than stimulated by PGE1. Similarly, PGE1-independent cell growth was inhibited by IBMX and dibutyryl cyclic AMP. However, the growth response to one agent which increases cyclic AMP (glucagon) was retained in PGE1-independent clone 1. This result suggests that the effect of glucagon is not associated with increases in intracellular cyclic AMP. The growth stimulatory effect of epidermal growth factor (EGF) on normal MDCK cells was also studied. Although EGF does not act via a cyclic AMP-mediated mechanism, EGF increased normal MDCK cell growth and substituted for PGE1 in Medium K-1. Thus, EGF and PGE1 could possibly affect similar growth-related functions in MDCK cells, although by different pathways. This possibility was examined further, using PGE1-independent clone 1. EGF, like glucagon, was still growth stimulatory to the PGE1-independent cells. Consequently, the biochemical pathways by which EGF and PGE1 increase MDCK cell growth probably do not converge.     

Retinoic acid inhibits basement membrane protein biosynthesis while stimulating dome formation by Madin Darby canine kidney cells in hormonally defined serum-free medium.

The effect of retinoic acid on basement membrane protein biosynthesis and dome formation by Madin Darby canine kidney cells was examined. Retinoic acid inhibited the biosynthesis of laminin, collagen IV, and heparan sulfate proteoglycan by confluent MDCK monolayers in a hormonally defined serum-free medium. Retinoic acid inhibited laminin biosynthesis by as much as 70% after an 8 day incubation period. The inhibitory effect of retinoic acid on laminin biosynthesis preceded temporally the stimulatory effect of retinoic acid on dome formation. This observation is consistent with the existence of a causal relationship between these two phenomena. Not only did retinoic acid inhibit the biosynthesis of laminin, but in addition the biosynthesis of the cellular 67 kd laminin binding protein was inhibited.     

Glucose deprivation results in the induction of glucose-regulated proteins and domes in MDCK monolayers in hormonally defined serum-free medium

Madin-Darby canine kidney (MDCK) cells spontaneously form dome-like structures in vitro, a phenomenon which has been proposed to be indicative of cellular differentiation. This study indicates the existence of a correlation between the induction of domes and of glucose-regulated proteins during glucose starvation. When MDCK monolayers were glucose deprived, domes appeared very rapidly. After only 3 h of glucose deprivation domes appeared in 69% of the microscope fields. The level of expression of glucose-regulated proteins (grps) as well as domes was examined over a 6-h time interval of glucose deprivation. Both grp 76 and 97 were induced over this time interval, with grp 76 being the more readily detectable. The level of induction of grp 76 as a function of time was quantitated by means of densitometry measurements. The induction of domes was examined in parallel with the induction of grp 76. The results indicated that the induction of grp 76 and domes occurs with a similar time course. The effect of glucose deprivation on the initial rate of ouabain-sensitive Rb+ uptake was also examined. Within the first 4 h of glucose deprivation, the initial rate of ouabain-sensitive Rb+ uptake did not differ significantly in glucose-deprived and control MDCK monolayers. These observations indicate that unlike the case with other methods of dome induction (e.g., treatment with either prostaglandin E1 (PGE1) or hexamethylene bis-acetamide (HMBA] glucose deprivation does not affect the Na+K+ ATPase activity of MDCK monolayers. These observations suggest that PGE1, HMBA, and glucose deprivation affect dome formation in MDCK monolayers by means of distinct mechanisms.     

Growth of functional primary cultures of kidney epithelial cells in defined medium

Primary cultures of baby mouse kidney epithelial cells can grow without fibroblast overgrowth in a hormone-supplemented serum-free medium (Medium K-1) designed for an established kidney epithelial cell line, MDCK. The five supplements in Medium K-1 are insulin, transferrin, PGE1, T3, and hydrocortisone. Medium K-1 also supports the growth of kidney epithelial cell cultures from a number of animals, including man, without fibroblast overgrowth. Outgrowth of kidney epithelial cells from kidney explants was also observed with Medium K-1. Thus, the medium appears to be selective for epithelial cell growth. The physiological properties of primary cultures of baby mouse kidney epithelial cells were studied in detail. Baby mouse kidney epithelial cells grew at equal rates (0.5 doublings/day) in Medium K-1 and serum-supplemented medium. Medium K-1 also supported the formation of baby mouse kidney epithelial colonies at low cell densities. The dependence of baby mouse kidney epithelial colony formation upon the five factors in Medium K-1 was examined. These studies indicated that the formation of baby mouse kidney epithelial colonies in defined medium depended upon all the five supplements in Medium K-1, in a manner similar, although not identical, to MDCK colonies. Primary cultures of baby mouse kidney epithelial cells grown in Medium K-1 retained kidney cell-associated properties, including the ability to form multicellular domes, a phenomenon associated with transepithelial salt transport. Amiloride-sensitive Na+ uptake and the mucosal surface enzyme leucine aminopeptidase were also observed in baby mouse kidney cultures. Similar functions were observed in MDCK monolayers.     

Lysosomotropic agents and inhibitors of cellular transglutaminase stimulate dome formation, a differentiated characteristic of MDCK kidney epithelial cell cultures

Dome formation is a manifestation of transepithelial fluid transport in cell culture, a differentiated characteristic of transporting epithelia. A dramatic increase in numbers of domes in confluent MDCK kidney epithelial cell cultures was noted after addition of Friend cell inducers such as hexamethylane bisacetamide (HMBA) (Lever, 1979b). In the present study, we show that primary amines such as methylamine, ethylamine, and dansyl cadaverine also stimulate dome formation. These compounds largely prevented the marked decrease in numbers of spontaneously occurring domes which occurred when cultures were switched from medium containing 10% serum to medium containing serum concentrations below 0.2%. Many of these primary amines are not only lysosomotropic agents but also potent inhibitors of transglutaminase activity when assayed in MDCK cell extracts, at concentrations correlating with those effective in stimulation of dome formation. Other lysosomotropic agents such as chloroquine and secondary and tertiary amines stimulated dome formation yet did not inhibit transglutaminase. Induction of domes by HMBA differed in several properties from that stimulated by amines and did not involve fluctuations in transglutaminase activity. These findings suggest that lysosomal functions modulate serum stimulation of dome formation in epithelial cells by a pathway distinct from that triggered by HMBA.     

Regulation of the Na,K-ATPase activity of Madin-Darby canine kidney cells in defined medium by prostaglandin E1 and 8-bromocyclic AMP.

The role of PGE1 in regulating the activity of the Na+, K(+)-ATPase in Madin Darby Canine Kidney (MDCK) cells has been examined. PGE1 increased the initial rate of ouabain-sensitive Rb+ uptake by MDCK cells, a process that continued to occur over a 5-day period. The increase in the initial rate of ouabain-sensitive Rb+ uptake in MDCK cells treated with PGE1 could be explained by a 1.6-fold increase in the Vmax for ouabain-sensitive Rb+ uptake. The increase in the Vmax for ouabain-sensitive Rb+ uptake observed in MDCK cells under these conditions can be explained either by an increase in the number of active Na+ pumps, or by an increase in the efficiency of the Na+ pumps. Consistent with the former possibility is the observed increase in the number of ouabain binding sites, as well as the increase in Na+, K(+)-ATPase activity in cell lysates obtained from MDCK monolayers treated with PGE1. The involvement of cyclic AMP in mediating these effects of PGE1 on the Na+, K(+)-ATPase in MDCK cells is supported by: (1) the observation of similar effects in 8-bromocyclic AMP treated MDCK monolayers, and (2) a dramatic reduction of the stimulatory effects of PGE1 and 8-bromocyclic AMP on the Vmax for ouabain-sensitive Rb+ uptake, and on the number of ouabain binding sites in dibutyryl cyclic AMP resistant clone 3 (DBr3) (which is defective in cyclic AMP dependent protein kinase activity). PGE1 independent MDCK monolayers exhibit both an increase in the Vmax for ouabain-sensitive Rb+ uptake and an increase in the number of ouabain binding sites in response to 8-bromocyclic AMP. Apparently, the cyclic AMP phosphodiesterase defect in these PGE1 independent cells did not cause cellular cyclic AMP levels to be elevated to a sufficient extent to maximally increase the Na+, K(+)-ATPase activity in these variant cells.     

Effect of aldosterone on dome formation by MDCK mono-layer

Effect of aldosterone on the dome formation in the reconstructed MDCK cell epithelia was studied. MDCK cells derived from dog kidney are assumed to be originated from distal tubules or collecting ducts. When cultured to a confluency, these cells formed a epithelial layer with many domes which contained fluid transported from the apical to the basolateral surface through this layer. Aldosterone at a concentration of 10(-8) to 10(-6) M increased the number of domes dose-dependently, probably through a receptor mediated process, since the dome formation induced by this hormone was completely abolished in the presence of spironolactone. This study primarily disclosed that the dome formation in MDCK cells was stimulated by aldosterone, probably through a receptor mediated mechanism.     

Loss of the PGE1 requirement for MDCK cell growth associated with a defect in cyclic AMP phosphodiesterase

Prostaglandin E₁(PGE₁), one of the components in the hormone-supplemented, serum-free medium for Madin Darby Canine Kidney (MDCK) cells (Medium K-1), is required for both long-term growth and for dome formation. Variant cells have been isolated from MDCK populations, which lack the PGE₁, requirement for long-term growth in Medium K-1. These variants will be useful in identifying the molecular events initiated by PGE₁ which are necessary for the growth response to be observed. The growth and functional properties of five independently isolated PGE₁ independent clones have been examined. Normal MDCK cells grew at an equivalent rate in Medium K-1 and in serum-supplemented medium; the growth rate was lower in Medium K-1 lacking PGE₁. In contrast, PGE₁ independent clone 1 grew at an equivalent rate in Medium K-1 minus PGE₁, and in serum-supplemented medium. When PGE₁ was added to K-1 minus PGE₁, less growth of PGE₁ independent clone 1 was observed. A similar observation was made with one other PGE₁ independent clone which was studied. A hormone deletion study indicated that PGE₁ independent clone 1 still retained growth responses to the other four supplements in Medium K-1 (insulin, transferrin, T₃, and hydrocortisone). The molecular alterations associated with loss of the PGE₁ requirement for long-term growth were examined. At confluency, all of the PGE₁ independent clones studied had higher intracellular cyclic AMP levels following PGE₁ treatment, as compared with normal MDCK cells. The increased cyclic AMP levels in the variant cells could result from a number of different types of defects, including reduced cyclic adenylic acid (cyclic AMP) efflux, an increased affinity of PGE₂ for the PGE₁ receptor, or a defect in cyclic AMP metabolism. However, in all of the variant clones studied a decreased rate of cyclic AMP degradation by cyclic AMP phosphodiesterase was observed. Thus, the increased cyclic AMP levels in the PGE₁ independent variants may result from alterations which affect cyclic AMP metabolism. The effect of PGE₁ on dome formation by the variant cells was also examined. The frequency of dome formation by PGE₁ independent clone 1 was enhanced in a dosage-dependent manner, like normal MDCK cells. This observation suggests that PGE₁ affects MDCK cell growth and dome formation by different mechanisms.     

Stimulation of dome formation in MDCK kidney epithelial cultures by inducers of differentiation: Dissociation from effects on transepithelial resistance and cyclic AMP levels

Changes in transepithelial electrical resistance and cyclic nucleotide levels were monitored accompanying chemical induction of domes in a clonal subline of MDCK kidney epithelial cells. Confluent cell monolayers grown on nitrocellulose filters exhibited a relatively high mean transepithelial resistance (387 ohms · cm²). Hexamethylene bisacetamide, a potent inducer of dome formation (Lever, 1979b), stimulated significantly increased transmonolayer resistance as well as elevated levels of intracellular cyclic AMP. By contrast, dimethylformamide, an equally potent inducer of dome formation in MDCK cells, did not appreciably alter either resistance values or cyclic nucleotide levels. These results suggest that induction of dome formation in epithelial cell cultures by compounds generally known as inducers of differentiation may involve multiple and separate mechanisms.     

Heterogeneity of the Na(+)-H+ antiport systems in renal cells.

This study analyzes the differential characteristics of the Na(+)-H+ antiport systems observed in several epithelial and non-epithelial renal cell lines. Confluent monolayers of LLC-PK1A cells have a Na(+)-H+ antiport system located in the apical membrane of the cell. This system, however, is not expressed during cell proliferation or after incubation in the presence of different mitogenic agents. In contrast, confluent monolayers of MDCK4 express minimal Na(+)-H+ antiport activity in the confluent monolayer state but reach maximal antiport activity during cell proliferation or after activation of the cells by different mitogenic agents. Similar results were obtained with the renal fibroblastic cell line BHK. The system present in MDCK4 cells is localized in the basolateral membrane of the epithelial cell. In LLC-PK1A cells, an increase in the extracellular Na+ concentration produces a hyperbolic increase in the activity of the Na(+)-H+ antiporter. In MDCK4 and BHK cells, however, an increase in external Na+ produces a sigmoid activation of the system. Maximal activation of the system occur at a pHo 7.5 in LLC-PK1A cells and pHo 7.0 in MDCK4 cells. The Na(+)-H+ antiporter of LLC-PK1A cells is more sensitive to the inhibitory effect of amiloride (Ki 1.8 x 10(-7) M) than is the antiporter of MDCK4 cells (Ki 7.0 x 10(-6) M). Moreover, 5-(N-methyl-N-isobutyl)amiloride is the most effective inhibitor of Na(+)-H+ exchange in LLC-PK1A cells, but the least effective inhibitor in MDCK4 cells. Conversely, the analog, 5-(N,N-dimethyl)amiloride, is the most effective inhibitor of Na(+)-H+ exchange in MDCK4 cells, but is the least effective inhibitor in LLC-PK1A cells. These results support the hypothesis that Na(+)-H+ exchange observed in LLC-PK1A and other cell lines may represent the activity of different Na(+)-H+ antiporters.     

Effect of cyclic AMP on chromatin-bound protein kinases in WI-38 fibroblasts stimulated to proliferate.

When resting confluent monolayers of WI-38 fibroblasts are stimulated to proliferate by serum, DNA synthesis begins to increase between 15-18 h after stimulation. Chromatin-bound protein kinase activity increases in stimulated cells within 1 h after the nutritional change, concomitant with an increase in the template activity of nuclear chromatin. Addition of dibutyryl 3' : 5'-cyclic adenosine monophosphate (dibutyryl cyclic) AMP to the stimulating medium inhibits the entrance of cells into S phase, but only if dibutyryl cyclic AMP (5-10(-4) M) is added before the onset of DNA synthesis. The increases in chromatin template activity and in the chromatin-bound kinase activity are not inhibited by dibutyryl cyclic AMP in the early hours after stimulation, but are completely inhibited after the 5th hour from the nutritional change. This seems to indicate that in stimulated WI-38 cells, dibutyryl cyclic AMP exerts its inhibitory action somewhere between 5 and 12 h after stimulation. A number of protein kinase activities were extracted from chromatin with 0.3 M NaCl and partially resolved on a phosphocellulose column. Two distinct peaks of protein kinase activity appeared to be markedly increased in WI-38 cells 6 h after serum stimulation. Both peaks of increased activity were inhibited by dibutyryl cyclic AMP in vivo. Adenosine, sodium butyrate and adenosine 5'-monophosphate (AMP) do not inhibit the increase in DNA synthesis nor the increase in protein kinase activity. The results suggest that stimulation of cell proliferation in confluent monolayers of WI-38 cells causes an increase (or the new appearance) of certain chromatin-bound protein kinases, and that this increase is inhibited by cyclic AMP in vivo.     

OMEC II: A new ovine mammary epithelial cell line

We have established three independent ovine mammary epithelial cell lines which arose from primary cultures of ovine mammary epithelial cells by spontaneous immortalization. One of them, OMEC II, was characterised in greater detail. The cells grow rapidly on plastic dishes in medium containing 10% FCS without any requirement for additional growth factors or hormones. Immunofluorescence staining of this cell line showed expression of cytokeratin (46 kDa) and ZO-1, a tight-junction associated protein, but negative immunostaining for an anti-vimentin antibody. In confluent cell monolayers ‘domes’ became visible indicating the development of a polarised phenotype and the ability of directed secretion. When grown in collagen gels typical ducts with end-buds were observed. Treatment with lactogenic hormones increased the frequency of dome formation, but no expression of β-lactoglobulin was found. To our knowledge this is the first report on an ovine mammary epithelial cell line.     

Gangliosides stimulate dome formation in cultured canine kidney epithelial cell line (MDCK)

The effect of exogenous gangliosides on the occurrence of domes in MDCK cell cultures was investigated in view of the involvement of both dome formation and gangliosides in cell growth, differentiation and transepithelial transport. Dome formation was increased by gangliosides in medium free of fetal calf serum. Among the gangliosides tested, GM3 and GD3 isolated from porcine kidney were most active, increasing the dome number 12-17-fold. Since gangliosides from kidney were more active than those from brain and erythrocytes, the hydrophobic moiety as well as sialic acid might be involved in this activity. These results indicate that tissue-specific molecules of gangliosides function as inducers or mediators of dome formation. The mechanism probably involves adenylate-cyclase or another transmembrane biosignal-transducing system.     

Evidence that hepatocyte growth factor abrogates contact inhibition of mitosis in Madin-Darby canine kidney cell monolayers.

It is becoming increasingly apparent that hepatocyte growth factor (HGF) plays an important role in kidney development, regeneration, and transformation to carcinoma. Previous in vitro studies have shown that HGF stimulates cell scattering, but not proliferation, in the renal epithelial cell line Madin-Darby canine kidney (MDCK) when grown on plastic at low density. This communication demonstrates that HGF treatment of confluent monolayers of MDCK also stimulates DNA synthesis and cell division. HGF stimulated thymidine incorporation in confluent MDCK cell monolayers grown on plastic in a dose dependent fashion, but did not stimulate thymidine incorporation in MDCK cells at 10-20% confluency on plastic. Additionally, basolaterally, but not apically, applied HGF stimulated thymidine incorporation in confluent MDCK cell monolayers grown on filters. Immunofluorescent labeling of nuclei in control and HGF treated MDCK cell monolayers grown on filters demonstrated an increase in mitotic figures. Confocal X-Z section views and direct cell counts of MDCK cell monolayers grown on filters demonstrated an increase in cell number after HGF treatment compared to controls. This is the first report of HGF stimulating cell proliferation in previously quiescent renal epithelial cell monolayers. This model will be useful for studying the mechanisms controlling cell proliferation rates in epithelial tissue.     

Differentiation of Human Neuroblastoma Cells: Marked Potentiation of Prostaglandin E-Stimulated Accumulation of Cyclic AMP by Retinoic Acid

Neuroblastoma cells in culture contain low levels of cyclic AMP, a second messenger which plays a major role in neuronal maturation. In this study, human neuroblastoma cells, SK-N-SH-SY5Y, were induced to differentiate by treatment with either nerve growth factor (50 ng/ml), retinoic acid (10 microM), dibutyryl cyclic AMP (1 mM), or 12-O-tetradecanoylphorbol-13-acetate (0.1 microM), and the ability of several neurotransmitters or hormones to stimulate adenylyl cyclase was tested. Although all four differentiation factors caused morphological changes towards a neuronal phenotype, only retinoic acid dramatically enhanced cyclic AMP accumulation, specifically upon stimulation with prostaglandin E1 (PGE1). PGE2 was also active, but less potent, than PGE1, whereas the other cyclic AMP-stimulating agents tested were largely unaffected. Further, the rapid desensitization of the PGE1-cyclic AMP response observed in control cells after 20 min of PGE1 exposure did not occur in retinoic acid-treated cells, and the EC50 values for PGE1 were reduced from approximately 240 to 14 nM after retinoic acid treatment. The increased sensitivity to PGE was associated with an increase of high-affinity PGE1 binding sites, whereas the Gs coupling proteins and adenylyl cyclase were not measurably affected. A similar enhancement of the PGE1-cyclic AMP response by retinoic acid was also observed in two additional human neuroblastoma cell lines tested, Kelly and IMR-32, suggesting that up-regulation of the prostaglandin response by retinoic acid is common among neuroblastoma cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intercellular ice propagation: experimental evidence for ice growth through membrane pores

Propagation of intracellular ice between cells significantly increases the prevalence of intracellular ice in confluent monolayers and tissues. It has been proposed that gap junctions facilitate ice propagation between cells. This study develops an equation for capillary freezing-point depression to determine the effect of temperature on the equilibrium radius of an ice crystal sufficiently small to grow through gap junctions. Convection cryomicroscopy and video image analysis were used to examine the incidence and pattern of intracellular ice formation (IIF) in the confluent monolayers of cell lines that do (MDCK) and do not (V-79W) form gap junctions. The effect of gap junctions on intracellular ice propagation was strongly temperature-dependent. For cells with gap junctions, IIF occurred in a directed wave-like pattern in 100% of the cells below -3 degrees C. At temperatures above -3 degrees C, there was a marked drop in the incidence of IIF, with isolated individual cells initially freezing randomly throughout the sample. This random pattern of IIF was also observed in the V-79W monolayers and in MDCK monolayers treated to prevent gap junction formation. The significant change in the low temperature behavior of confluent MDCK monolayers at -3 degrees C is likely the result of the inhibition of gap junction-facilitated ice propagation, and supports the theory that gap junctions facilitate ice nucleation between cells.     

Polarity of three-dimensional structures derived from isolated hog thyroid cells in primary culture

When cultured in polystyrene dishes subjected to previous treatment and supplied with a serum-containing medium, hog thyroid cells form monolayers displaying dome-like arrangements after three to four days. Cells involved in formation of "domes" are morphologically polarized; the apical microvilli of these cells point toward the culture medium. When the tissue is cultured in untreated polystyrene dishes, thyroid cells remain in suspension; their aggregates swell progressively and form hollow spheres encompassed by a single layer of cells. The polarity of the cells forming such spheres is inverse in comparison to the condition characteristic of the intact thyroid gland. When culture medium is supplemented with TSH, PGE1, PGE2 or dBC, structures resembling true follicles are formed in both types of cultures. Gelatin, added to suspension cultures, is also capable of promoting follicle formation. Cultured thyroid cells regularly form an epithelial layer as a result of the interaction of cellular processes. However, the polarization of this layer depends on culture conditions. Thus, structures with either a normal follicle-like polarization of their cells or showing an inverted type of polarization can be obtained.     

Assembly of enveloped viruses in Madin-Darby canine kidney cells: polarized budding from single attached cells and from clusters of cells in suspension

In confluent monolayers of the dog kidney epithelial cell line Madin-Darby canine kidney (MDCK) assembly of RNA enveloped viruses reflects the functional polarization of the cells. Thus, influenza, Sendai, and Simian virus 5 bud from the apical (free) surface, while vesicular stomatitis virions (VSV) are assembled at basolateral plasma membrane domains (Rodriguez-Boulan, E., and D.D. Sabatini, 1978, Proc. Natl. Acad. Sci. U.S.A., 75:5071-5075). MDCK cells derived from confluent monolayers by dissociation with trypsin-EDTA and maintained as single cells in spinner medium for 12-20 h before infection, lose their characteristic structural polarity. Furthermore, when these cells were infected with influenza or VSV, virions assembled in a nonpolarized fashion over most of the cell surface. However, when dissociated MDCK cells infected in suspension were sparsely plated on collagen gels to prevent intercellular contact and the formation of junctions, the characteristic polarity of viral budding observed in confluent monolayers was again manifested; i.e., VSV budded preferentially from adherent surfaces and influenza almost exclusively from free surface regions. Similar polarization was observed in cells which became aggregated during incubation in spinner medium: influenza budded from the free surface, while VSV was produced at regions of cell-cell contact. It therefore appears that in isolated epithelial cells attachment to a substrate or to another cell is sufficient to trigger the expression of plasma membrane polarity which is manifested in the asymmetric budding of viruses.